Apparatus for lifting and moving containers

ABSTRACT

An apparatus for lifting and moving containers includes a frame and a plurality of spaced-apart generally parallel rails which extend from the frame in a generally horizontal plane. A plurality of slide means are slidably mounted on each rail for longitudinal sliding movement on the rail, and connecting means extend between adjacent slide means for permitting limited longitudinal sliding movement of each pair of adjacent slide means between adjacent and separate positions. An extendable hydraulic motor extends parallel to the rails, and a connecting rod extends transversely from the motor and is connected to one of the slide means of the rail. Extension of the hydraulic motor will extend the first slide means of each rail, and, after limited sliding movement permitted by the connecting means, the succeeding slide means on each rail will also be moved longitudinally along the rail until all of the slide means are separated from each other. Retraction of the hydraulic motor will cause successive butting of each slide means against the forwardly adjacent slide means until all of the slide means on each rail are adjacent each other. The containers to be lifted are supported between a pair of slide means on adjacent rails and can be lifted by raising the frame. The separation between the containers can be varied as desired by extending or retracting the hydraulic motor.

United States Patent [191 Jones, Jr. et a1.

[ Sept. 25, 1973 APPARATUS FOR LIFTING AND MOVING CONTAINERS [76] Inventors: Learoy Jones, Jr., 812 12th Ave. NE, Mulberry, Fla. 33860; Joel F. Butler, 902 Chestnut Rd., Lakeland, Fla. 33801 221 Filed: 0a. 10, 1972 21 Appl. No.: 296,329

[52] US. Cl 214/750, 294/87, 294/88 [51] Int. Cl B66f 9/14 [58] Field of Search 294/63, 65, 67 R,

294/67 BB, 86 R, 87, 87.26, 88; 214/145,

Primary Examiner-Evon C. Blunk Assistant Examiner-Johnny D. Cherry AttorneyDawson et a1.

[5 7 1 ABSTRACT An apparatus for lifting and moving containers includes a frame and a plurality of spaced-apart generally parallel rails which extend from the frame in a generally horizontal plane. A plurality of slide means are slidably mounted on each rail for longitudinal sliding movement on the rail, and connecting means extend between adjacent slide means for permitting limited longitudinal sliding movement of each pair of adjacent slide means between adjacent and separate positions. An extendable hydraulic motor extends parallel to the rails, and a connecting rod extends transversely from the motor and is connected to one of the slide means of the rail. Extension of the hydraulic motor will extend the first slide means of each rail, and, after limited sliding movement permitted by the connecting means, the succeeding slide means on each rail will also be moved longitudinally along the rail until all of the slide means are separated from each other. Retraction of the hydraulic motor will cause successive butting of each slide means against the forwardly adjacent slide means until all of the slide means on each rail are adjacent each other. The containers'to be lifted are supported between a pair of slide means on adjacent rails and can be lifted by raising the frame. The separation between the containers can be varied as desired by extending or retracting the hydraulic motor.

7 Claims, 5 Drawing Figures PATENTEDSEPZSIQYS 3,750,9 5

sum 1 or 2 F IG.2

PATENTED SEP25 I975 swear:

BACKGROUND This invention relates to an apparatus for lifting and moving containers and, more particularly, to an apparatus which is particularly suitable for lifting and moving containers or pots for flowers and other plants.

In recent years there has been an increase in the use of containers for growing ornamental plants and other varieties. The resultant increase in the number of containers that must be moved has resulted in a labor problem. In accordance with conventional practice containers are moved from potting areas to growing beds and finally to transportion sites within a nursery by a combination of hand and trailer movement. Each individual container may therefore be handled several times before reaching its final destination.

The containers may also be moved several times even after they are positioned in the growing bed. When a plant is first placed in a container, spacing of the container from adjacent containers is generally not necessary for good plant growth. When containers are positioned adjacent each other, many more plants can be placed per acre of growing area than would be possible if the containers were separated. However, as the plants grow, additional space is required, therebyrequiring another movementof the containers. Many growers position the containers in a spaced-apart manner when the containers are originally spaced in order to avoid the later necessity of spacing the container, but this results in inefficient use of costly plant bed space.

Many plants, such as herbaceous ornamentals, are not cold hearty and require protection from the cold. During cold weather such plants should be transported to protected areas.

The containers are relatively heavy, and one person can generally carry only two containers at a time, except for very small containers. A filled 20 gallon container, for example, can weigh as much as 100 pounds.

SUMMARY The invention reduces the cost and time required to transport and properly position containers. The apparatus includes a plurality of horizontally extending rails which can be inserted between rows of containers. When the rails are lifted, the top rim of each container is supported by a pair of slide means on adjacent rails. The frame which supports the rails can be mounted on a conventional lift truck or the like which can then transport the containers to another site. When the containers are lifted from the ground, the spacing between the containers can be varied as desired by extending or retracting the hydraulic motor to change the spacing between adjacent-slide means. The rails are adjustably mounted on a frame, and the spacing between adjacent rails can be readily adjusted to permit the apparatus to be used with different sizes of containers.

DESCRIPTION OF THE DRAWING- ventional lift truck;

FIG. 2 is a front perspective view showing the apparatus lifting containers, the lift truck being omitted for clarity;

FIG. 3 is a transverse fragmentary sectional view showing two containers engaged by lift rails;

FIG. 4 is a fragmentary top plan view of the apparatus and one container; and

FIG. 5 is a side perspective view of the apparatus showing the containers moved into adjacent positions.

DESCRIPTION OF SPECIFIC EMBODIMENT Referring now to the drawings, the numeral 10 designates generally a lifting apparatus which includes a plurality of elongated parallel rails 11 supported by a frame 12. The frame 12 is mounted on a fork lift L of a conventional fork lift truck T to permit the frame and the rails to be raised and lowered by the fork lift.

The frame is generally rectangularly shaped and includes upper and lower bars 13 and 14 and side bars 15 and 16 which are secured together. Intermediate bars '17 and 18 extend between the upper and lower bars near the middle of the frame, and a pair of elongated rods 19 and 20 extend through the vertically extending rods 15-18.

The bottom bar 14 of the frame is provided with an elongated slot 21 which extends transversely to the rails, and the back end of each rail is attached to a mounting plate 22 which is adjustably secured to the bar 14 by a bolt 23 which passes through the slot 21. A plurality of braces 24 are secured to the rails and to the frame for providing additional support for the rails. Each brace includes a vertically extending brace member 25 which is attached to a'pairof closely'spaced rails, as by welding, and extends upwardly adjacent the rods l9 and 20 of the frame, and an inclined brace member 26 which is secured between the closely adjacent rails and to the vertically extending brace member 25. A connecting member 27 extends rearwardly from the upper end of the vertical brace member 25 and isprovided with a pair of openings through which the rods 19 and 20 extend. v

Referring now to FIGS. 3 and 4, a plurality of generally U-shaped slides or sleeves 28 are slidably carried by each rail 11. In the embodiment illustrated each of the slides includes a top wall 29, a downwardly extending side wall 30 which extends for substantially the entire height of the rail along the-inside surface of the rail, i.e., the left side of the rails 11a and the right side of the rails 11b, and a shorter side wall 31 which extends downwardly on the outside of the rail. Suitable bearing means may be provided between the slides and the rails to facilitate the sliding movement of the slides relative to the rails, and in the particular embodiment illustrated, the bearing means comprise elongated oilimpregnated wooden strips 32 which extend along the rail and are secured thereto. Two strips are located along the inside surface of each rail and one strip is located along the top of the rail. The outer side wall 31 of each slide includes an inwardly extending flange 33 which extends below an elongated metal guide strip 33a which is secured to the rail. The strip 33a guides the slide and prevents the slide from being removed upwardly from the rail.

In the particular embodiment illustrated the slides are also equipped with wood blocks 34 which are secured to the elongated inner side wall 30. Each block has a flat upper surface 35 and an inclined outer surface 36 to provide bearing contact over a greater surface area with the inclined side wall of a conventional plant container 37. As illustrated in FIG. 3, plant containers conventionally include a generally frustoconical side wall 38 and an outwardly extending upper rim or flange 39.

The rails are arranged in closely adjacent pairs of rails 11a and 11b, and the spacing between the rail 11a of one pair and the rail 11b of an adjacent pair is such that when the rails are raised the flat top surfaces 35 of the wooden block will engage the outwardly extending rim 39 of the container and the inclined surfaces 36 of the blocks will extend adjacent the frusto-conical side wall of the container. If desired, however, the blocks could be eliminated, and the spacing between the rails adjusted so that the container rims would be engaged by the slides 28.

Referring now particularly to FIG. 4, each adjacent pair of slides 28 on each rail is joined by a connecting bar or slide strap 40 which permits limited separation between adjacent slides. Each connecting bar is pro vided with a longitudinally extending slot 41 and has one end 42 secured to one of the slides, as by welding, and another end 43 which extends slidably over the adjacent slide. A stop pin 44 extends upwardly from the adjacent slide through the slot 41 and permits separation of the slide until the pin engages the end of the slot.

Referring now to FIG. 2, a hydraulic motor designated generally by the numeral 46 extends longitudinally between the middle pair of rails and is supported there-between by brackets 47 which are secured to these middle rails. The hydraulic motor is conventional and includes a double-acting cylinder 48 and a piston 49 which can extend and retract relative to the cylinder under the influence of hydraulic pressure supplied by a suitable source (not shown). The rear end of the piston is attached to an elongated connecting rod 50 which extends transversely across the top of the rails 1 1 and which is connected to the rearmost slide on each of the rails. Referring to FIG. 1, the rearmost slides on some of the rails are positioned adjacent the connecting rod 50, and these slides can be connected directly to the rod by suitable detachable connecting means such as a nut and bolt. The rearmost slides on the other rails are spaced forwardly of the connecting rod, and these slides are connected to the rod by a slide strap 51 similar to the slide strap 40 which permits limited movement of the slides away from the connecting rod. These slide straps are also detachably connected to the connecting rod.

When the piston is fully extended as in FIGS. 1 and 2, the slides 28 on each rail are separated from adjacent slides, this separation being permitted by the sliding movement of the pins 44 within the slots 41 of the slide straps until each pin reaches the end of its associated slot. It is seen that slides on the rails 11a and 11b of each closely spaced pair of rails are staggered, i.e., each slide on one of the rails is positioned generally opposite the spacing between a pair of slides on the other rail.

When the piston is retracted, the connecting rod 50 begins to move those slides which are connected directly to it forwardly. Forward movement of these slides does not cause forward movement of the next slide on the associated rail until the slide abuts the next slide because the connecting slide straps 40 may slide freely relative to the pins 44. Similarly, those slides which are connected to the connecting rod 50 by slide be pulled rearwardly. The next slide on the associated rail'will not begin to move until the associated stop pin 44 reaches the end of the slot of the associated slide strap. Thereafter, the second slide will be pulled rearwardly by the first slide. Similarly, those slides which are connected to the connecting rod by slide straps will not begin to move rearwardly until the associated pin reaches the end of the slot in the slide strap. Continued extension of the piston will similarly cause successive movement of each of the slides as the various slide straps reach the limit of their extension relative to the slides.

When a number of containers have been filled with soil and plants and are to be transported to a growing site or other area, the containers can be arranged in parallel rows in which adjacent containers are relatively closely spaced. The piston 49 can then be retracted to close the spacing between the slides, and the apparatus can be advanced by the lift truck to permit the pairs of closely spaced rails 11a and 11b to be inserted between adjacent rows of containers below the upper rims of the containers. The spacing between adjacent rows of containers should be such that the upper.

rims 39 thereof can be engaged by the blocks 34 on the slides when the frame is lifted. The containers can be lifted for transportation to another area merely by raising the lift L and the frame 12.

Before the containers are returned to the ground, the piston can be extended if desired to increase the spacing between adjacent containers in each row. This would be desirable, for example, if the plants have reached a stage of growth which would require more growing area. Thereafter, the containers can be returned to the ground or other supporting surface by lowering the frame until the containers are supported by the ground and the rails are lowered below the upper rims 39 of the containers. The lift truck can then be backed up to withdraw the rails from between the rows of containers.

Alternatively, the containers could be picked up when they are positioned in the spaced-apart arrangement shown in FIG. 2 by extending the piston to move the slides into the spaced-apart positions. If desired, the spacings between adjacent containers of each row can be reduced before the containers are replaced on the ground by retracting the piston.

If larger or smaller containers are to be lifted with the apparatus, the spacing between the rails 1 la and 1 1b of adjacent pairs of rails can be adjusted as desired by loosening the bolts 23 which secure the mounting plates 22 to the bottom bar 14 of the frame and sliding the connected pairs of rails toward or away from each other. This movement of the rails is guided by the bolts which remain within the slot 21 of the bar 14 and by the support members 27 of the braces 24 which ride on the rods 19 and 20. If extremely large containers are to be lifted, the end pair of rails on either or both ends of the frame can be removed by removing the attaching bolts 23 and by sliding the rods 19 and 20 out of the support member 27 for those rails. The middle pair of rails which are positioned between the bars 17 and 18 of the frame need not be adjustable.

The number and size of slides 28 can also be varied depending upon the size of the containers. In the embodiment illustrated, four slides are carried by each rail, each slide being about 11 inches long. If smaller containers are to be lifted, these slides can be slidably removed from the forward end of the rails and replaced with shorter slides which will permit a greater number of containers to be lifted by each associated pair of rails. The change-over of the slides can be accomplished quickly merely by disconnecting the slides and the slide straps 40 from the connecting rod 50, and sliding the slides forwardly off the rails. Thereafter, different slides can be slidably mounted on the rails and connected to the connecting rod.

Although the apparatus has been described in conjunction with frusto-conical or tapered plant containers, it will be understood that the apparatus can be used with containers of other shapes and sizes.

From the foregoing it is seen that the apparatus can lift and transport a large number of containers and readjust the relative spacing between the containers before the containers are replaced on a supporting surface. The maintenance of the apparatus is minimal since the only power-operated device is the hydraulic motor 46. The oil-impregnated wood bearing strips 32 do not require lubrication and are more tolerant to sand and moisture which may be encountered'in nurseries than a steel ball-bearing system in which steel rubs against steel.

While in the foregoing specification a detailed description of a specific embodiment of the invention was set forth for the purpose of illustration, it will be understood that many of the details hereingiven may be varied considerably by those skilled in the art without departing from the spirit and scope of the invention.

I claim:

1. An apparatus for lifting and moving containers comprising a plurality of elongated spaced-apart generally parallel rails extending in a generally horizontal plane and adapted to be raised and lowered, a plurality of slide means slidably mounted on each rail for longitudinal sliding movement therealong, connecting means between adjacent slide means on each rail for permitting limited longitudinal sliding movement of adjacent slide means between adjacent and separated positions, and power means connected to at least one slide means on each rail for sliding each of said one slide means longitudinally on the associated rail whereby containers may be supported between slide means on adjacent rails and movement of the power means in one direction will move the slide means on each rail together into the adjacent position and movement of the power means in the other direction will move the slide means on each rail into the separated position.

2. The apparatus of claim 1 in which each connecting means includes a connecting member secured to one slide means and extending along an adjacent slide means for sliding movement relative thereto and stop means on the connecting member and the adjacent slide means for preventing further sliding movement when said one slide means and the adjacent slide means reach the separated positions whereby further movement of said one slide means pulls the adjacent slide means.

3. The apparatus of claim 2 in which each connecting member comprises a bar having an elongated slot therein extending parallel to the rails and having at least one end, the stop means comprising said one end of the slot and a pin on the adjacent sliding member, the pin being slidable within the slots and engageable with said one end of the slot.

4. The apparatus of claim 1 in which each slide means includes a generally U-shaped sleeve slidably carried by one of the rails.

5. The apparatus of claim 1 in which each slide means includes a side wall extending laterally of the associated rail and inclined toward an adjacent rail to permit engagement of the side wall with the wall of a tapered container.

6. The apparatus of claim 1 including a frame supporting the rails, at least some of the rails being adjustably secured to the frame whereby the horizontal spacing between at least some adjacent rails can be varied.

7. The apparatus of claim 1 in which the power meansincludes an extendable hydraulic motor extending parallel to the rails and a connecting rod extending transversely to the rails, the connecting rod being attached to the hydraulic motor and to one of the slide means on each rail whereby extension and retraction of the hydraulic motor moves the slide means between the separated and the adjacent positions.

* l l l 

1. An apparatus for lifting and moving containers comprising a plurality of elongated spaced-apart generally parallel rails extending in a generally horizontal plane and adapted to be raised and lowered, a plurality of slide means slidably mounted on each rail for longitudinal sliding movement therealong, connecting means between adjacent slide means on each rail for permitting limited longitudinal sliding movement of adjacent slide means between adjacent and separated positions, and power means connected to at least one slide means on each rail for sliding each of said one slide means longitudinally on the associated rail whereby containers may be supported between slide means on adjacent rails and movement of the power means in one direction will move the slide means on each rail together into the adjacent position and movement of the power means in the other direction will move the slide means on each rail into the separated position.
 2. The apparatus of claim 1 in which each connecting means includes a connecting member secured to one slide means and extending along an adjacent slide means for sliding movement relative thereto and stop means on the connecting member and the adjacent slide means for preventing further sliding movement when said one slide means and the adjacent slide means reach the separated positions whereby further movement of said one slide means pulls the adjacent slide means.
 3. The apparatus of claim 2 in which each connecting member comprises a bar having an elongated slot therein extending parallel to the rails and having at least one end, the stop means comprising said one end of the slot and a pin on the adjacent sliding member, the pin being slidable within the slots and engageable with said one end of the slot.
 4. The apparatus of claim 1 in which each slide means includes a generally U-shaped sleeve slidably carried by one of the rails.
 5. The apparatus of claim 1 in which each slide means includes a side wall extending laterally of the associated rail and inclined toward an adjacent rail to permit engagement of the side wall with the wall of a tapered container.
 6. The apparatus of claim 1 including a frame supporting the rails, at least some of the rails being adjustably secured to the fRame whereby the horizontal spacing between at least some adjacent rails can be varied.
 7. The apparatus of claim 1 in which the power means includes an extendable hydraulic motor extending parallel to the rails and a connecting rod extending transversely to the rails, the connecting rod being attached to the hydraulic motor and to one of the slide means on each rail whereby extension and retraction of the hydraulic motor moves the slide means between the separated and the adjacent positions. 